Photoreversion of ultraviolet induced apoptosis in Rat Kangaroo cells

Abstract

Rat kangaroo(Potorous tridactylus) cells efficiently repair 254 nm ultraviolet light (UV) induced cyclobutane pyrlmidine dimers (CPDs) through photoreactivation, leading to an enhancement of survival when cells are exposed to photoreactivation light (PRL) immediately after UV-irradiation. This work presents evidence that at least part of the UV-irradiated cells die through apoptosis, as demonstrated by DNA fragmentation and chromatin condensation. The induction of this kind of cell death can be reversed through photoreactivation immediately after irradiation, indicating that CPDs are essential signals for the initiation of apoptosis by UV-irradiation. Exposure to PRL 24 h after UV-irradiation does not reverse the induction of apoptosis, implying that the cells are committed to die at this time after irradiation. Inhibition of DNA synthesis during this period of time following UV-irradiation, and before exposure to PRL, does not avoid apoptosis. Since similar results were obtained in Go confluent and G1/S synchronized cells, the signals for the UV-induced apoptosis do not seem to be related to a specific phase of cell cycle. Nevertheless, by adding 3-aminobenzamide (3AB—an inhibitor of poly(ADP-ribose) polymerase) in the cell medium after UV-irradiation, apoptosis endpoints were partially reversed if cells are exposed to PRL 24 h later. This result strongly indicates that poly(ADP-ribose) is an intermediary signal for UV-induced apoptosis in mammalian cells.